3.2 mm x 2.5 mm 6 Pads SMD TCXO or TC/VCXO Oscillator Applications: Server & Storage CDMA / WCDMA 802.11 / Wifi T1/E1. T3/E3 3.20±0.10 Marking Product Features: Advanced PLL Technology 0.8 pSec Phase Jitter typ. Fast Delivery RoHS and Lead Free Compliant I595 / I795 Series Frequency LVCMOS LVPECL LVDS Output Levels LVCMOS 2.00±0.20 10.000 MHz to 245.000 MHz 10.000 MHz to 1450.000 MHz 10.000 MHz to 1450.000 MHz Logic Logic Logic Logic Logic Logic LVPECL LVDS Load LVCMOS LVPECL LVDS Duty Cycle Rise / Fall Time LVCMOS LVPECL LVDS Frequency Stability Initial Calibration Tolerance vs. Temperature vs. Aging vs. Voltage vs. Load vs. Reflow Start-up Time Supply Voltage (±5%) Current Current with Output Disabled Phase Noise (RMS) “0” “1” “0” “1” “0” “1” = = = = = = 1.60±0.10 10% of Vcc max 90% of Vcc min Vcc – 1.85 Vmin, Vcc – 1.60 V max Vcc – 1.03 V min, Vcc -0.60 V max 1.10 V typ, 0.90 V min 1.40 V typ, 1.60 V max 2.10 15pF Differential Differential 50% ±5% (Ref to 50% of waveform) .72 1.5 nSec typ, 3.0 nSec max (10% to 90% of waveform) 0.2 nSec typ, 0.5 nSec max (20% to 80% of waveform) 0.2 nSec typ, 0.4 nSec max (20% to 80% of waveform) .68 ±1.0 ppm max at +25ºC ±2ºC at time of shipment See Stability in Part Number Guide ±1.0 ppm max per year at +25ºC ±0.2 ppm max for a ±5% change in Supply Voltage (Vcc) ±0.2 ppm max for a ±10% change in load ±1.0 ppm max after 1 reflow and measured 24 hours after. 5 mSec max +2.50 VDC , +3.30 VDC See Part Number Guide See table 1 sheet 2 18 mA typ 0.8 pSec typ (12.000 kHz to 20.000 MHz) Less than 400nSec (1.875 kHz to 21.000 MHz) Part Number Guide I595 = TCXO I795 = TCVCXO Input Voltage 3 = +3.3 V 6 = +2.5 V 1 2 3 5 = = = = Operating Temperature 0ºC to +70ºC -40ºC to =85ºC -20ºC to +70ºC -30ºC to +85ºC Stability (in ppm) 0 = ±1.5* P = ±2.0* Q = ±2.5* R = ±3.0 J = ±5.0 .50 1 2 3 6 5 4 .90 .50 .50 Temperature Range Operating See Operating Temperature in Part Number Guide Storage -55ºC to +150ºC Notes: 1. An 0.01 µF and 10 µF bypass capacitors are recommended between Vcc (Pin 6) and GND (Pin 3) to minimize power supply noise Package 2.50±0.10 Output 3 = LVCMOS 8 = LVDS 9 = LVPECL 2.56 1.60 1.10 .75 Suggested Land Pattern Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin Connections Voltage Control TCVCXO N/C or Ground TCXO N/C or Enable / Disable Ground Output N/C LVCMOS LVPECL Complementary Output LVDS Supply Voltage (Vcc) Dimensions in mm Sample Part Number: I595-63Q8H-20.000 Enable / Disable Frequency (Pin 2) H = Enable O = N/C 20.000 MHz * Not available for all temperature ranges ILSI America Phone 775-851-8880 ● Fax 775-851-8882 ●email: [email protected] ● www.ilsiamerica.com Specifications subject to change without notice Rev: 3/28/15_D Page 1 of 3 3.2 mm x 2.5 mm 6 Pads SMD TCXO or TC/VCXO Oscillator I595 / I795 Series Pin Select Funtions Voltage Control Function (Pin 1) I795 only +1.5 V ±1.0 V for both Vcc = +2.5 VC Voltage Center & Range V & +3.3 V Frequency Pull Range ±8.0 ppm Linearity ±1% typ, ±10% max Transfer Function Positive Absolute Voltage +3.63 V max Vcc = +3.3 V +2.63 V max Vcc = +2.5 V Input Impedance 770 kΩ typ Harmonics -5.0 dBc max E/D Function (Pin 2) 0.7% of Vcc min or no connection enable output E/D Control 0.3% of Vcc max to disable output (high impedance) E/D Time 200 nSec max Disable Time 50 nSec max SSB Phase Noise Offset 10 Hz 100 Hz 1 kHz 10 kHz 100 kHz 1 MHz 10 MHz 77.76 -62 dBc/Hz -100 dBc/Hz -116 dBc/Hz -122 dBc/Hz -124 dBc/Hz -144 dBc/Hz -152 dBc/Hz 156.25 -65 dBc/Hz -92 dBc/Hz -108 dBc/Hz -114 dBc/Hz -117 dBc/Hz -139 dBc/Hz -147 dBc/Hz 212.50 -61 dBc/Hz -90 dBc/Hz -106 dBc/Hz -110 dBc/Hz -112 dBc/Hz -133 dBc/Hz -142 dBc/Hz 622.08 -51 dBc/Hz -79 dBc/Hz -97 dBc/Hz -102 dBc/Hz -103 dBc/Hz -125 dBc/Hz -134 dBc/Hz 1000.00 -40 dBc/Hz -73 dBc/Hz -91 dBc/Hz -99 dBc/Hz -99 dBc/Hz -121 dBc/Hz -129 dBc/Hz 1250.00 -43 dBc/Hz -75 dBc/Hz -89 dBc/Hz -95 dBc/Hz -96 dBc/Hz -117 dBc/Hz -127 dBc/Hz Supply Current Current Consumption LVCMOS Vcc = +2.50 VDC All values are typical an over the operating temperature. 50 MHz = 24mA 125 MHz = 28 mA 200 MHz = 30 mA Vcc = +3.30 VDC All values are typical an over the operating temperature. 50 MHz = 26mA 125 MHz = 30 mA 200 MHz = 34 mA LVPECL 156 MHZ = 36mA 600 MHz = 40mA 800 MHz = 46mA 1.0G Hz = 50mA 156 MHZ = 40mA 600 MHz = 45mA 800 MHz = 48mA 1.0G Hz = 52mA LVDS 156 MHZ = 22mA 600 MHz = 28mA 800 MHz = 30mA 1.0G Hz = 34mA 156 MHZ = 25mA 600 MHz = 30mA 800 MHz = 32mA 1.0G Hz = 36mA Table 1 Tape and Reel Information: Quantity per Reel A B C D E F 3000 8.0 ±0.2 4.0 ±0.1 3.5 ±0.05 9.0 ±0.3 60 / 80 180 / 250 ILSI America Phone 775-851-8880 ● Fax 775-851-8882 ●email: [email protected] ● www.ilsiamerica.com Specifications subject to change without notice Rev: 3/28/15_D Page 2 of 3 3.2 mm x 2.5 mm 6 Pads SMD TCXO or TC/VCXO Oscillator I595 / I795 Series Typical Applications: LVPECL LVPECL LVDS Vcc N/C Vcc Vcc OUTPUT 10 uF 0.01 uF N/C or Ground Voltage Control R1 Zo = 50? 6 5 15 pF 4 10 uF 0.01 uF 6 Oscillator I595 I795 Zo = 50? 1 2 5 I595 I795 Enable / Disable or N/C N/C or Ground Voltage Control 1 2 R3 OUTPUT Vcc R2 10 uF 0.01 uF 6 5 OUTPUT R1 OUTPUT 4 Oscillator R4 3 Zo = 50? Zo = 50? OUTPUT 4 Oscillator 3 Vcc I595 I795 N/C or Ground Voltage Control 1 2 3 Enable / Disable or N/C Enable / Disable or N/C Vcc = +3.3 V R1 and R3 = 127? , R2 and R4 = 825? Vcc = +2.5 V R1 and R3 = 250? , R2 and R4 = 625? Environmental Specifications: Thermal Shock Moisture Resistance Mechanical Shock Mechanical Vibration Resistance to Soldering Heat Hazardous Substance Solderability Terminal Strength Gross Leak Fine Leak Solvent Resistance MIL-STD-883, Method 1011, Condition A MIL-STD-883, Method 1004 MIL-STD-883, Method 2002, Condition B MIL-STD-883, Method 2007, Condition A J-STD-020C, Table 5-2 Pb-free devices (except 2 cycles max) Pb-Free / RoHS / Green Compliant JESD22-B102-D Method 2 (Preconditioning E) MIL-STD-883, Method 2004, Test Condition D MIL-STD-883, Method 1014, Condition C MIL-STD-883, Method 1014, Condition A2, R1=2x10-8 atm cc/s MIL-STD-202, Method 215 Package Information: MSL – N.A. (package does not contain plastic, storage life is unlimited under normal room conditions) Termination = e4 (Au over Ni over W base metallization) Pb Free Solder Reflow Profile: Marking: Line 1: I - Date Code (yww) Line 2: Frequency Units are backward compatible with 240ºC reflow process. PROPRIETARY AND CONFIDENTIAL THIS DOCUMENT CONTAINS PROPRIETARY INFORMATION, AND SUCH INFORMATION MAY NOT BE DISCLOSED TO OTHERS FOR ANY PURPOSE NOR USED FOR MANUFACTURING PURPOSES WITHOUT WRITTEN PERMISSION FROM ILSI America. ILSI America Phone 775-851-8880 ● Fax 775-851-8882 ●email: [email protected] ● www.ilsiamerica.com Specifications subject to change without notice Rev: 3/28/15_D Page 3 of 3